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openproject/app/models/cost_query.rb

685 lines
24 KiB

require_dependency 'query'
class CostQueryColumn < QueryColumn
attr_reader :scope
def initialize(name, options={})
self.scope = (optione.delete(:scope) || :issues)
super
end
end
class CostQueryCustomFieldColumn < QueryCustomFieldColumn
attr_accessor :scope
def initialize(custom_field)
self.reader = :issues
super
end
end
class Filter
include GLoc
def initialize(scope, column_name, column)
@scope = scope
@column_name = column_name
@column = column
@enabled = true
default_operator = CostQuery.filter_types[@column[:type]][:default]
@operator = default_operator if default_operator
end
attr_reader :scope, :column_name, :column
attr_reader :values, :sql_values
def values=(v)
values = v.is_a?(Array) ? v : [v]
sql_values = values.dup
if column[:flags].include? :user
sql_values.push(User.current.logged? ? User.current.id.to_s : "0") if sql_values.delete("me")
end
if available_values
available_value_keys = available_values.collect {|o| o[1].to_s }
sql_values.each do |value|
unless (available_value_keys.include? value.to_s) or (value.to_s == "")
raise ArgumentError.new("Forbidden value (#{value.inspect} not in #{available_value_keys.inspect})")
end
end
end
@values = values
@sql_values = sql_values
end
attr_reader :operator
def operator=(o)
raise ArgumentError.new("Forbidden operator #{o}") unless available_operators.include? o
@operator = o
end
attr_accessor :enabled
def type_name
@column[:type]
end
def label
@column[:name] || l(("field_"+@column_name.gsub(/\_id$/, "")).to_sym)
end
def available_operators
CostQuery.filter_types[@column[:type]][:operators]
end
def available_values
@column[:values]
end
def new_record?
return true
end
end
class CostQuery < ActiveRecord::Base
include GLoc
belongs_to :user
belongs_to :project
serialize :filters
serialize :group_by
attr_protected :user_id, :project_id, :created_at, :updated_at
def after_initialize
self.display_time_entries = true if display_time_entries.nil?
self.display_cost_entries = true if display_cost_entries.nil?
self.group_by ||= {}
end
def self.operators
# These are the operators used by filter types.
operators = {}
issue_operators = Query.operators
issue_operators.each_pair do |op, label|
simple = (["!*", "*", "t", "w", "o", "c"].include? op)
operators[op] = {:label => label, :simple => simple}
end
operators.merge(
{
"=n" => {:label => :label_equals, :simple => false},
"0" => {:label => :label_none, :simple => true},
"y" => {:label => :label_yes, :simple => true},
"n" => {:label => :label_no, :simple => true},
"<d" => {:label => :label_less_or_equal, :simple => false},
">d" => {:label => :label_greater_or_equal, :simple => false},
"<>d" => {:label => :label_between, :simple => false},
"=d" => {:label => :label_date_on, :simple => false}
}
)
end
def self.filter_types
return @filter_types if @filter_types
filter_types = Query.operators_by_filter_type.inject({}) do |r, f|
multiple = !([:list, :list_status, :list_optional, :list_subproject].include? f[0])
r[f[0]] = {:operators => f[1], :multiple => multiple}
r
end
@filter_types = filter_types.merge(
{
:integer_zero => {:operators => [ "=n", ">=", "<=", "0", "*" ], :multiple => true},
:boolean => {:operators => [ "y", "n" ], :multiple => false},
:date_exact => {:operators => [ "<d", ">d", "<>d", "=d", "t", "w"], :multiple => true, :default => "w"}
}
)
end
def available_filters
# This available_filters is different from the Redmine one
# available_filters[:issues]
# --> filters on issue fields. These are the one from redmine itself
# available_filters[:costs]
# --> filters on cost and time entries
return @available_filters if @available_filters
@available_filters = {
:costs => {
"cost_type_id" => { :type => :list_optional, :order => 2, :applies => [:cost_entries], :flags => [], :db_table => CostType.table_name, :db_field => "id", :values => CostType.find(:all, :order => 'name').collect{|s| [s.name, s.id.to_s] }},
"activity_id" => { :type => :list_optional, :order => 3, :applies => [:time_entries], :flags => [], :db_table => Enumeration.table_name, :db_field => "id", :values => Enumeration.find(:all, :conditions => {:opt => 'ACTI'}, :order => 'position').collect{|s| [s.name, s.id.to_s] }},
"created_on" => { :type => :date_exact, :applies => [:time_entries, :cost_entries], :flags => [], :order => 4 },
"updated_on" => { :type => :date_exact, :applies => [:time_entries, :cost_entries], :flags => [], :order => 5 },
"spent_on" => { :type => :date_exact, :applies => [:time_entries, :cost_entries], :flags => [], :order => 6},
"overridden_costs" => { :type => :boolean, :applies => [:time_entries, :cost_entries], :flags => [], :order => 7 },
# FIXME: Issues are not selected properly according to project selection
"issue_id" => { :type => :list_optional, :order => 8, :applies => [:cost_entries, :time_entries], :flags => [], :db_table => Issue.table_name, :db_field => "id", :values => Issue.find(:all, :order => :id, :include => :tracker).collect{|s| ["#{s.tracker} ##{s.id}: #{s.subject}", s.id.to_s] }},
}
}
tmp_query = Query.new(:project => project, :name => "_")
@available_filters[:issues] = tmp_query.available_filters
# flag columns that contain filters for user columns
@available_filters[:issues].each_pair do |k,v|
v[:flags] = []
v[:flags] << :user if %w(assigned_to_id author_id watcher_id).include?(k)
if k =~ /^cf_(\d+)$/
# custom field
v[:db_table] = CustomValue.table_name
v[:db_field] = 'value'
v[:db_field_id] = $1 # this is the numeric part in the regex above
v[:flags] << :custom_field
elsif k == "watcher_id"
v[:db_table] = Watcher.table_name
v[:db_field] = 'user_id'
v[:flags] << :watcher
else
if ["labor_costs", "material_costs", "overall_costs"].include? k
v[:type] = :integer_zero
end
if [:date_past, :date].include? v[:type]
v[:type] = :date_exact
end
v[:db_table] = Issue.table_name
v[:db_field] = k
end
end
if @available_filters[:issues]["author_id"]
# add a filter on cost entries for user_id if it is available
user_values = @available_filters[:issues]["author_id"][:values]
@available_filters[:costs]["user_id"] = {:type => :list_optional, :order => 1, :applies => [:time_entries, :cost_entries], :values => user_values, :flags => [:user]}
end
@available_filters
end
def create_filter(scope, column_name)
column = available_filters[scope][column_name]
column ? Filter.new(scope, column_name, column) : nil
end
def create_filter_from_hash(filter_hash = {})
scope = filter_hash[:scope].to_sym
column_name = filter_hash[:column_name]
column = available_filters[scope][column_name]
f = Filter.new(scope, column_name, column)
f.enabled = filter_hash[:enabled] unless filter_hash[:enabled].nil?
f.operator = filter_hash[:operator] unless filter_hash[:operator].nil?
f.values = filter_hash[:values] unless filter_hash[:values].nil?
f
end
def has_filter?(scope, column_name)
# returns the first matching filter or nil
return nil unless filters
match = filters.select {|f| f[:scope] == scope.to_s && f[:column_name] == column_name.to_s}
return match.blank? ? nil : match[0]
end
MAGIC_GROUP_KEYS = [:block, :time, :display, :db_field, :other_group]
def self.grouping_column(*names, &block)
options = names.extract_options!
names.each do |name|
group_by_columns[name] = options.with_indifferent_access.merge(
:block => block,
:scope => grouping_scope
)
group_by_columns[name][:db_field] ||= name
group_by_columns[name][:display] ||= Proc.new { |e| e }
group_by_columns[name][:other_group] ||= "<em>#{l :group_by_others}</em>"
end
end
def self.grouping_scope(type = nil)
@grouping_scope = type || @grouping_scope
yield if block_given?
@grouping_scope
end
def self.group_by_columns
@group_by_columns ||= {}.with_indifferent_access
end
def self.get_name(key, value)
return group_by_columns[key][:other_group] unless value
group_by_columns[key][:display].call value
end
def self.from_field(klass, field)
Proc.new do |id|
a = klass.find_by_id(id)
(a ? a.send(field) : id).to_s
end
end
grouping_scope(:issues) do
grouping_column :tracker_id, :display => from_field(Tracker, :name)
grouping_column :fixed_version_id, :display => from_field(Version, :name)
grouping_column :cost_object_id, :display => from_field(CostObject, :subject)
grouping_column :subproject_id, :display => from_field(Project, :name), :db_field => :project_id
end
grouping_scope(:costs) do
grouping_column :user_id, :display => from_field(User, :name)
grouping_column :issue_id, :display => from_field(Issue, :subject)
grouping_column :cost_type_id, :display => from_field(CostType, :name), :other_group => l(:caption_labor_costs)
grouping_column :activity_id, :display => from_field(Enumeration, :name)
grouping_column(:spent_on, :tyear, :tmonth, :tweek, :time => true) do |column, fields|
values = []
if fields["spent_on"]
values = [fields["spent_on"].to_date] * 2
elsif fields["tyear"]
if fields["tmonth"]
start_of_month = Date.civil(fields["tyear"].to_i, fields["tmonth"].to_i , 1)
values = [start_of_month.to_s, start_of_month.end_of_month.to_s]
elsif fields["tweek"]
start_of_week = Date.commercial(fields["tyear"].to_i, fields["tweek"].to_i, 1)
values = [start_of_week.to_s, start_of_week.end_of_week.to_s]
else
start_of_year = Date.civil(fields["tyear"].to_i, 1, 1)
values = [start_of_year.to_s, start_of_year.end_of_year.to_s]
end
end
raise "Invalid group by values" if values.blank?
{
:operator => "<>d",
:values => values,
:column_name => :spent_on
}
end
end
def filter_from_group_by(fields)
column_name = group_by[:name].to_sym
data = self.class.group_by_columns[column_name].dup
options = {}
MAGIC_GROUP_KEYS.each do |key|
options[key] = data.delete key
end
block = options[:block] || Proc.new { {} }
equals_hash = {
:enabled => 1,
:operator => "=",
:column_name => column_name,
:values => fields[column_name.to_s],
}
# TODO: not all filters have this filter operator. We have to always select the correct operator
none_hash = {
:enabled => 1,
:operator => "!*",
:column_name => column_name,
:values => nil,
}
hash = fields[column_name.to_s].nil? ? none_hash : equals_hash
hash.merge(data).merge(block.call(column_name, fields))
end
def group_by_columns_for_select
self.class.group_by_columns.inject([["", ""]]) do |list, (column_name, values)|
filter = create_filter(values[:scope], column_name.to_s)
list << [filter.label, column_name] if filter
list
end
end
def time_groups
# returns an array of group_by names where time == true
self.class.group_by_columns.inject([]) do |list, (column_name, values)|
list << column_name if values[:time]
list
end
end
def project_statement
project_clauses = []
if project && !project.children.active.empty?
ids = [project.id]
if subprojects = has_filter?(:issues, "subproject_id")
subprojects = create_filter_from_hash(subprojects)
case subprojects.operator
when "="
# include the selected subprojects
ids += subprojects.values.each(&:to_i)
when "!*"
# main project only
else
# all subprojects
ids += project.descendants.collect(&:id)
end
elsif Setting.display_subprojects_issues?
ids += project.descendants.collect(&:id)
end
project_clauses << "#{Project.table_name}.id IN (%s)" % ids.join(',')
elsif project
project_clauses << "#{Project.table_name}.id = %d" % project.id
end
# FIXME: Implement rights model here
#project_clauses << Project.allowed_to_condition(User.current, :view_issues)
if project_clauses.blank?
"1=1"
else
project_clauses.join( 'AND ')
end
end
def group_by_fields()
# returns the group_by of the current group by query
# These fields are one of the keys of group_by_columns
return [] unless !group_by[:name].blank? && (data = group_by_columns[group_by[:name].to_sym])
if data[:time]
# We have a group_by_time
return case group_by[:granularity]
when "year" then ["tyear"]
when "month" then ["tyear", "tmonth"]
when "week" then ["tyear", "tweek"]
else ["spent_on"]
end
else
[group_by[:name]]
end
end
def group_by_columns
self.class.group_by_columns
end
def sql_data_for(entry_scope)
case entry_scope
when :cost_entries
model = CostEntry
when :time_entries
model = TimeEntry
from_include_issue = false
end
my_fields, nil_fields, grouping_fields = [], [], []
group_by_fields.each do |field|
group_by_column = group_by_columns[field.to_sym]
klass = group_by_column[:scope] == :issues ? Issue : model
db_field = group_by_column[:db_field]
if klass.column_names.include? db_field.to_s
grouping_fields << "#{klass.table_name}.#{db_field}"
my_fields << "#{klass.table_name}.#{db_field} as #{field}"
else
nil_fields << "NULL as #{field}"
end
end
group_by = "GROUP BY #{grouping_fields.join(", ")}" unless grouping_fields.blank?
[model, (my_fields + nil_fields).join(", "), from_statement(entry_scope), statement(entry_scope), group_by]
end
def from_statement(entry_scope, include_issue = false)
case entry_scope
when :cost_entries
from = <<-EOS
#{CostEntry.table_name}
LEFT OUTER JOIN #{CostType.table_name} ON #{CostType.table_name}.id = #{CostEntry.table_name}.cost_type_id
LEFT OUTER JOIN #{User.table_name} ON #{User.table_name}.id = #{CostEntry.table_name}.user_id
LEFT OUTER JOIN #{Issue.table_name} ON #{Issue.table_name}.id = #{CostEntry.table_name}.issue_id
EOS
when :time_entries
from = <<-EOS
#{TimeEntry.table_name}
LEFT OUTER JOIN #{Enumeration.table_name} ON #{Enumeration.table_name}.id = #{TimeEntry.table_name}.activity_id
LEFT OUTER JOIN #{User.table_name} ON #{User.table_name}.id = #{TimeEntry.table_name}.user_id
LEFT OUTER JOIN #{Issue.table_name} ON #{Issue.table_name}.id = #{TimeEntry.table_name}.issue_id
EOS
end
end
def statement(entry_scope)
# entry_scope can currently be one of :cost_entries, :time_entries
# To not mix this with the scope (aka :issues vs. :costs)
issue_filter_clauses = []
entry_filter_clauses = []
if filters and valid?
filters.each do |filter|
filter = create_filter_from_hash(filter)
next if filter.column_name == "subproject_id"
sql = ''
case filter.scope
when :issues
if filter.column[:flags].include? :custom_field
sql << "#{Issue.table_name}.id IN ("
sql << " SELECT #{Issue.table_name}.id FROM #{Issue.table_name} LEFT OUTER JOIN #{filter.column[:db_table]} ON #{filter.column[:db_table]}.customized_type='Issue' AND #{filter.column[:db_table]}.customized_id=#{Issue.table_name}.id AND #{filter.column[:db_table]}.custom_field_id=#{filter.column[:db_field_id]} WHERE "
sql << sql_for_filter(filter, nil, true)
sql << ")"
elsif filter.column[:flags].include? :watcher
sql << "#{Issue.table_name}.id #{ field.operator == '=' ? 'IN' : 'NOT IN' } ("
sql << " SELECT #{filter.column[:db_table]}.watchable_id FROM #{filter.column[:db_table]} WHERE #{filter.column[:db_table]}.watchable_type='Issue' AND "
sql << sql_for_filter(filter)
sql << ")"
else
sql << '(' + sql_for_filter(filter) + ')'
end
issue_filter_clauses << sql
when :costs
sql << '(' + sql_for_filter(filter, entry_scope) + ')'
entry_filter_clauses << sql
end
end
end
issue_filter_clauses = ["1=1"] if issue_filter_clauses.blank?
# FIXME: This is a hack calling a private ActiveRecord methods
# from http://pivotallabs.com/users/jsusser/blog/articles/567-hacking-a-subselect-in-activerecord
from = "#{Issue.table_name}"
from << " LEFT OUTER JOIN #{User.table_name} ON #{User.table_name}.id = #{Issue.table_name}.assigned_to_id"
from << " LEFT OUTER JOIN #{IssueStatus.table_name} ON #{IssueStatus.table_name}.id = #{Issue.table_name}.status_id"
from << " LEFT OUTER JOIN #{Tracker.table_name} ON #{Tracker.table_name}.id = #{Issue.table_name}.tracker_id"
from << " LEFT OUTER JOIN #{Project.table_name} ON #{Project.table_name}.id = #{Issue.table_name}.project_id"
from << " LEFT OUTER JOIN #{Enumeration.table_name} ON #{Enumeration.table_name}.id = #{Issue.table_name}.priority_id"
from << " LEFT OUTER JOIN #{IssueCategory.table_name} ON #{IssueCategory.table_name}.id = #{Issue.table_name}.category_id"
from << " LEFT OUTER JOIN #{Version.table_name} ON #{Version.table_name}.id = #{Issue.table_name}.fixed_version_id"
issue_ids = Issue.send(
:construct_finder_sql,
:select => "#{Issue.table_name}.id",
#:include => [ :assigned_to, :status, :tracker, :project, :priority, :category, :fixed_version ],
:from => from,
:conditions => (issue_filter_clauses << project_statement).join(' AND '))
case entry_scope
when :cost_entries
entry_filter_clauses << "#{CostEntry.table_name}.issue_id IN (#{issue_ids})"
when :time_entries
entry_filter_clauses << "#{TimeEntry.table_name}.issue_id IN (#{issue_ids})"
end
entry_filter_clauses.join(' AND ')
end
def sort_criteria=(arg)
c = []
if arg.is_a?(Hash)
arg = arg.keys.sort.collect {|k| arg[k]}
end
c = arg.select {|k,o| !k.to_s.blank?}.slice(0,3).collect {|k,o| [k.to_s, o == 'desc' ? o : 'asc']}
write_attribute(:sort_criteria, c)
end
def sort_criteria
read_attribute(:sort_criteria) || []
end
def sort_criteria_key(arg)
sort_criteria && sort_criteria[arg] && sort_criteria[arg].first
end
def sort_criteria_order(arg)
sort_criteria && sort_criteria[arg] && sort_criteria[arg].last
end
private
def sql_for_filter(filter, entry_scope = nil, string_as_null = false)
db_table = filter.column[:db_table]
if filter.scope == :costs && !db_table
case entry_scope
when :cost_entries
db_table = CostEntry.table_name
when :time_entries
db_table = TimeEntry.table_name
else
raise "Need a valid entry scope. Got #{entry_scope.inspect}" unless entry_scope
end
end
if filter.scope == :costs && (!filter.column[:applies].include? entry_scope)
# the current filter does not match the entry_scope so we just ignore it
return "1=1"
end
db_field = filter.column[:db_field] || filter.column_name
# Does not work for Redmine 0.8
#@sql_for_filter_query = Query.new(:name => "_") unless @sql_for_filter_query
#sql = @sql_for_filter_query.send(
# :sql_for_field,
# filter.column_name, filter.operator, filter.sql_values, db_table, db_field, string_as_null)
sql = sql_for_field(filter.column_name, filter.operator, filter.sql_values, db_table, db_field, string_as_null)
return sql unless sql == "1=1"
# We have an operator that was added by us. So we provide the logic here
case filter.operator
when "0"
sql = "#{db_table}.#{db_field} = 0"
when "y"
sql = "#{db_table}.#{db_field} IS NOT NULL"
when "n"
sql = "#{db_table}.#{db_field} IS NULL"
when "=n"
sql = "#{db_table}.#{db_field} = #{CostRate.clean_currency(filter.sql_values).to_f.to_s}"
when "<>d"
begin
date1 = filter.sql_values.first.to_date
date2 = filter.sql_values.last.to_date
sql = "#{db_table}.#{db_field} BETWEEN '#{connection.quoted_date(date1)}' AND '#{connection.quoted_date(date2)}'"
rescue
end
when ">d"
begin
date = filter.sql_values.first.to_date
sql = "#{db_table}.#{db_field} >= '#{connection.quoted_date(date)}'"
rescue
end
when "<d"
begin
date = filter.sql_values.first.to_date
sql = "#{db_table}.#{db_field} <= '#{connection.quoted_date(date)}'"
rescue
end
when "=d"
begin
date = filter.sql_values.first.to_date
sql = "#{db_table}.#{db_field} = '#{connection.quoted_date(date)}'"
rescue
end
end
return sql
end
# Helper method to generate the WHERE sql for a +field+, +operator+ and a +value+
# FIXME: This methods comes from redmine trunk. Delete this one and call the one from redmine instead!
def sql_for_field(field, operator, value, db_table, db_field, is_custom_filter=false)
sql = ''
case operator
when "="
sql = "#{db_table}.#{db_field} IN (" + value.collect{|val| "'#{connection.quote_string(val)}'"}.join(",") + ")" unless value.blank?
when "!"
sql = "(#{db_table}.#{db_field} IS NULL OR #{db_table}.#{db_field} NOT IN (" + value.collect{|val| "'#{connection.quote_string(val)}'"}.join(",") + "))"
when "!*"
sql = "#{db_table}.#{db_field} IS NULL"
sql << " OR #{db_table}.#{db_field} = ''" if is_custom_filter
when "*"
sql = "#{db_table}.#{db_field} IS NOT NULL"
sql << " AND #{db_table}.#{db_field} <> ''" if is_custom_filter
when ">="
sql = "#{db_table}.#{db_field} >= #{value.first.to_i}"
when "<="
sql = "#{db_table}.#{db_field} <= #{value.first.to_i}"
when "o"
sql = "#{IssueStatus.table_name}.is_closed=#{connection.quoted_false}" if field == "status_id"
when "c"
sql = "#{IssueStatus.table_name}.is_closed=#{connection.quoted_true}" if field == "status_id"
when ">t-"
sql = date_range_clause(db_table, db_field, - value.first.to_i, 0)
when "<t-"
sql = date_range_clause(db_table, db_field, nil, - value.first.to_i)
when "t-"
sql = date_range_clause(db_table, db_field, - value.first.to_i, - value.first.to_i)
when ">t+"
sql = date_range_clause(db_table, db_field, value.first.to_i, nil)
when "<t+"
sql = date_range_clause(db_table, db_field, 0, value.first.to_i)
when "t+"
sql = date_range_clause(db_table, db_field, value.first.to_i, value.first.to_i)
when "t"
sql = date_range_clause(db_table, db_field, 0, 0)
when "w"
from = l(:general_first_day_of_week) == '7' ?
# week starts on sunday
((Date.today.cwday == 7) ? Time.now.at_beginning_of_day : Time.now.at_beginning_of_week - 1.day) :
# week starts on monday (Rails default)
Time.now.at_beginning_of_week
sql = "#{db_table}.#{db_field} BETWEEN '%s' AND '%s'" % [connection.quoted_date(from), connection.quoted_date(from + 7.days)]
when "~"
sql = "LOWER(#{db_table}.#{db_field}) LIKE '%#{connection.quote_string(value.first.to_s.downcase)}%'"
when "!~"
sql = "LOWER(#{db_table}.#{db_field}) NOT LIKE '%#{connection.quote_string(value.first.to_s.downcase)}%'"
end
return sql.blank? ? "1=1" : sql
end
# Returns a SQL clause for a date or datetime field.
def date_range_clause(table, field, from, to)
s = []
if from
s << ("#{table}.#{field} > '%s'" % [connection.quoted_date((Date.yesterday + from).to_time.end_of_day)])
end
if to
s << ("#{table}.#{field} <= '%s'" % [connection.quoted_date((Date.today + to).to_time.end_of_day)])
end
s.join(' AND ')
end
end